Geometrical instrument



Dec. 15,l 1936.

E. RQBARANY GEOMETRICAL INSTRUMENT 6 sheets-sheet 2 Filed April 2, 1935 IN VENTOR.

.4r/"I v' ATTORNEYS DeCJlS, 1936.4 Y E, R BARA'NY GEOMETRICAL INSTRUMENTV Filed April 2, 1935 e snetsisneet s EN @.IIT Y E hf .2 N n .Nn BN .NN o n n c m n i. v lL. .H A. E @IT zx fa@ ATTORNEYS De.15,1936. ERBARANY 2,064,142

GEOMETRICAL INS TRUMENT .Filed April 2, 1935 s sheets-sheet 4 -INVENTOR. .1 a?. @M7

BY i Y @2W-4 T ma ATTORNEYS Dec. 15, 193 6. E R BARANY :2,064,142

GOMETR ICAL INS TRUMENT Filed April 2, 1935' e sheets-snee; 5

'@,Q 10? y my for lf f5@ 1 s o 14 v j j v 0 4 o jij? .MVT- 14 114 INVENTOR.

@414. BYM 7 ATTORNEYS 6 Sheets-Sheet 6 Dec. 15, V 1936. E. R. BARANY GEOMETRIGAL INSTRUMENT Filed April 2, 1935 ww@ No,

ATTORNEYS Patented Dec. 15, 1936 UNITED STATES PAT-ENT oFF-ICE 11 Claims.

This invention relates generally to geometrical instruments, and has particular reference to drafting apparatus.

An important object of the invention is to provide an improved drafting apparatus, which is simple in construction, inexpensive to manufacture, reliable in use, accurate in operation, and which is such that it may be so employed as to facilitate the many classes of work for which'it is especially adapted tobe used.

Other objects and advantages of the invention will become apparent from the following description, taken in connection with the accompanying drawings, in which- Fig. l is a plan View, three-quarter size, of a drafting apparatus embodying the invention; Fig. 2 is a rear elevation of the apparatus; Fig. 3 is a bottom view of the apparatus; Fig. 4 is an enlargedtransverse sectional view taken on line O Il--4Y of Fig. 1;. Fig. 5 is a plan view of another form of the invention; Fig. 6 is an enlarged transverse sectional view taken on line 6 6 of Fig. 5; Fig. 7 is a view similar to Figs. 4 and 6 and showing a. somewhat simplified form of the invention; Fig. 8 is a view similar to Figs. l and 5 and showing a further simplified form of the invention; Fig. 9 is a rear elevation of the apparatus show-n in Fig. 8; Fig. 10 is a bottom View of the apparatus shown in Figs. 8 and 9; Fig. 1l is an enlarged view, partly in section and partly in elevation, showing. in detail one of a pair of bearings by which the longitudinal shaft is supported in each of the several forms of the invention,v and Fig. 12 is a transverse, sectional view taken on line I2--I2 o-f Fig. 11, Fig. 13 is a bottom View of another simplified embodiment of the invention which is characterized by a modified form of contact means, by which the apparatus may be held against undue shifting as it is moved from one position to another; Fig. 14 isa transverse sectional view taken on line Ill-I4 of Fig. 13; Fig. l5 is a plan view of another form of the invention; Fig. 16 is an enlarged transverse sectional view taken on line lli-I6 of Fig. 15; Fig. 17 is an enlarged transverse sectional view taken on line II-Il of Fig. 15, and Fig. 18 is an enlarged fragmental view in elevation of the upwardly and rearwardly extending cylindrical shell of Figs. and 16 as viewed from the right in Fig. l5.

Referring particularly to Figs. 1 to 4 inclusive the numeral I5 indicates a transversely and longitudinally movable housing-like body member, which is so designed as to enable it to be. either cast of metal or. molded from a suitable material,

(Cl. 33e-109) such Ias. bakelite.' The front margin of the body member presents astraight-edge and is provided with Aa scale l'fpreferablyof metal, which may be graduated-in any desired units of linear measure, such as inches and fractions thereof, whereas 5 the rear margin of the body member presents a curved edge toV which `isiattached a scale I'I,

preferably of meta'l;'vvhiclrA may be graduated in terms ofl degrees so as toenable it to serve as a protractor, by :which'angular measurements may 1o be madewith Vrespect to` aline of reckoning passing throughthe` midpointl graduationof the scale I6 and the zero graduationof the scale I1. AsV shown most clearly in Figs; 1, 2 and 4, the body member I5 includes an'upwardly and rearwardly l5 extending cylindrical shell I8,'from which a pair of gusset-'like websv 20 extend toward opposite ends of thebody member, which webs Vnot only reinforce the body member` but 'also serve as handl grips vbywhich the device maybe conven- 20 iently movedfrom'one position-to another.' As shown 'most'clearlyin-Figs 4l and 2, the webs 20 merge 'with upwardly projecting shaft and contact-roller housings v2I and 22, respectively, the shaft housings projecting from the cylindrical 'shell I8 toward the opposite ends' of the body member and Athere 'terminating in or merging with the roller housings'.

As shown most clearly in 4, the cylindrical shell" I8 is formed with a divisional wall 2'4 which 30 extends generally vtransversely thereof, the primary function offther wall being to afford a central bearing 25, within which is journalled a tubular shaft 26,r provided intermediate `its ends with a bevel gear 2'l,"`meshing with a similar gear 35 28,V secured to theinner end of a driving shaft 30, journalled in a bearing 3I depending gen- 'erally downwardlyfrom the wall 24.

TO: the outerV end of the `shaft 30, there is connected a contact roller 32,.the peripheral surface of which is serrated so as topresent an. annular series of tooth-like ribs 34; which extend in a. radial di'- rection from the .axis of ythe shaft and are adapted to engage and slightly penetrate the surface of a sheet of drawing paper when the 45 Vdevice is shifted from one position to another thereon, it. being noted that as the device is moved longitudinally the. roller 32 so coact's with the surface of the drawin'gpaper as to effect a positive drivingaction on the shaft '30 in one 50 direction oranother depending on the direction in which the device Ais moved. longitudinally, whereas when the device. i's'shifted at right` angles to itself the shaft 30 remains stationary'because its associated roller 32 slides-over the draw- 55 ing paper without turning, the particular roller rib 34 then engaging the paper making a shallow groove-like depression in the surface of the paper as it rides thereover. Although each of the ribs 34 is of a substantial length, they are such that they respectively make only point contact, practically speaking, with the surface of the paper, due to the fact that their outer edges are so curved that whichever one is inengagement with the surface of the paperat a given instant is inclined upwardly at its frontv and at its rear, as will be readily understood when it is taken into account that the radius of curvature of ea'ch rib is the same as that of the bead-like peripheral rim 35 of the roller when considered in transverse longitudinal section. l v

The upper end of the shaft 26 is provided with a tapered opening 36, adapted to receive a similarly shaped clutch-like driving hub 31, which is provided at its lower end with an inwardly extending flange 3,8and is connected at its upper end to a rotatable dial-,plate I9, the peripheralfmargin of whichzis provided with a depending reinforcing flange 29, terminating slightly above a ledge 46, with whichthe inner wall of the cylindricalV shellV I0 is providedl The clutch-like hub- 3'1y is maintained in frictional driving engagement.. with the wall of the tapered opening 36 bya compression spring 4|, confined intermediate the Yflange 38'0f the -hub 31 and an outwardly extending` shoulder 42 carried at the upperend'of a tubular sleeve 44, about which the rhub 31 and the spring 4| are disposed, the sleeve 44 being heldin a fixed lrelation to the s'haft26 by reason of the union that is afforded between its lower screw-threaded end and the internal screw threads of a sleeve-receivingpocket 45 with which the shaft 26isl provided. The dial-plate I9 is provided on its upper peripheral margin with an annular bead 39, which serves as a means by which a' graduated dial 4'1 may be secured to the dial-plate |9,as4 by a press t, the dial being graduated at itsperipheral mar'- gin in terms of linear measure, such for example as inches and fractions thereof as kshown in Fig. 1. 'Ihe bead 39,serves no t only as a convenient means for establishing 'a driving connection between the dial-plate I9 andthe dial 41, but also as a lock flange for the retention of a removable bezel and crystal unit 5I of the general type employed in ordinary watch-case" construction.

J ournalled within the tubular shaft 26 and its associated sleeve 44, is a driving shaft 52, to the upper end of which is 'connected a pointer 54 and to the lower end of which is connected a bevel gear 55. In order to relieve, as far as possible, any friction between the shaftv 26 and the hub portion of the gear 55, there isl disposed intermediate such shaft and hub portion an anti-friction thrust bearing 56. Meshing with the bevel gear 55, is a similar'gear 51, carried by a longitudinally disposed drive shaft 5B, which is accommodated bythe shaft housings 2| and provided at its opposite ends with contact rollers 60, which are accommodated by the roller housings 22, each of the rollers being slightly rounded or chamfered at its Opposite ends, as shown most clearly at6| in Fig. l1, `andserrated on its periphery so as' to presentk anfannular series of tooth-like ribs 62, whichfjare parallel to each other and tothe axis oftheshaft 58. In order that the shaft 58, with its contact rollers xed thereon, may be conveniently assembled within the body member I5, .such4 body member is molded with a half bearing '64 at eachend thereof, such half bearings being adapted to receive spool-like journals which are applied to the shaft 58 prior to fixing the contact rollers thereon and which are held against displacement on the half bearings 64 by a pair of straps 56, the straps being of substantially the same width as the half bearing and connected to such bearings by lag screws 61.

From the description of the invention thus far, it will become apparent'that the device may be utilized as a scale, a protractor, a parallel ruler, and as a means for measuring, through the instrumentality of a single indicator unit, distances to be reckoned either longitudinolly or vertically, it being understood that longitudinal movement of the device in .either direction will cause the dial 41 to rotate while the pointer 54 remains stationary, that vertical movement of the device in either direction will cause the pointer 54 to move while the dial remains stationary, and that the dial (due to the frictional driving engagement between its associated dial-plate I9 and the tubular shaft26) may be manually rotated independently of that shaft, and of course the shaft 52, when it is desired, for example,to'effect registration between the pointer and any one of the graduations ofthe dial. l

If desired, the device shown-in Figs. 1 to 4 may be modified in accordance with the disclosure of Figs. 5 and 6, Vwherein primed reference characters are employed to indicate such elements as are common to and have been described in vconnecnon with the device of Figs. it@ 4,. A

Referring particularly to Figs. 5`and `6, it will be noted that anl additional'pointer 0| is ernployed, and that such pointer is connected to the tubular shaft 26' in lieu of the dial' 41', herein'- before described as connected to the tubular shaft 26. VIn the present instance, it will be understood that as the device is moved in a direction perpendicular to the straight'-e`dge which is presented by the front margin ofthe body membe'r I5', thepointer 54 will move in one direction or'another, andthat as the device is moved in a parallel relation to the axis ofV its shaft 58', the pointer I0| will be moved in one direction or the other' as and in Ithe manner in which the dial 41, hereinbefore described, ismoved. In order that the extent 'of movement ofthe device may be indicated by either the pointer 54' or the pointer |0|, 'there is provided a graduated' dial 41 which is carried by a flangeY ring |02, which is rotatably supported on the ledge 46" of the cylindrical shell I8 and'is provided with a depending skirt |04 having bearingv engagement with the inner wall .of the cylinder shell. rI'hj'e flange ring |02 is held againstaxial displacement by a pilot screw |05, passing through the wall of the cylindrical shell |8' and projecting into an annular groove |06, formed in the periphery of the `depending skirt ',I04. 'Althoughthe pilot screw |05' effectively serves to retain the iiangev ring |02 against longitudinal displacement, its presence does not,

ofcourse, impede manual rotation of the flange 'ring and its associated crystal unit 5| when it is desired to effect registration betweenv a given `graduation of the dial 41 and either of the pointers 54 and |0I, as when'the device is at rest.

Although the form of' invention shown in Fig. 7

v,isa modiiication of the respectiverdevicesshown in Figs. 1 to 4 and in Figs. 5 and 6, it is more closely of brevity'and clarity', primed reference charactersV being employed to indicate such elements as correspond to those first described in connection.

with Figs. 5 and 6 and double-primed reference characters being employed to indicate such elements as correspond to those rst described in Figs. 1 to 4.

Referring particularly t-oFig. '7, it will be noted that the divisional wall 24 of the cylindrical shell I8" serves as a journal bearing for a single shaft, namely, the shaft 52" to which the pointer 54 is connected, which pointer is employed in connection with its associated dial 41" for indicating the extent of vertical movement of the device in one direction or the other, no provision being madein the present instance for indicating the extent of longitudinal movement of the device in either direction, as in the structures of Figs. 1 to 4 and Figs. 5 and 6, which accounts for the omission from the present modification of the tubular shaft 26, Fig. 4, and shaft 26', Fig. 6, and their associated driving mechanisms.

If desired, the invention may be further modied according to Figs. 8 to 10, wherein triple primed reference characters are employed to indicate such elements as correspond to those rst described in connection with Figs. 1 to 4.

Referring to Figs. 8 to 10, it will be noted that no provision is made for indicating the extent of movement of the device in anyV direction, and for that reason the body member I5"' may assume the form of a relatively simple molded element, provided, if desired, With transversely extending reinforcing ribs ID'I, which are in union with a longitudinally disposed gusset-like web I8. The web |08, like the webs 20, Figs. 1 and 2, and the webs 28', Fig. 5, serves to not only reinforce the body member, but also as a hand grip by which the device may be conveniently moved from one position to another over the surface of a sheet of drawing paper. In the present instance, it is to be noted that the device, as is also true of the previously described forms of the invention, is held on true right-angle courses in its vertical and longitudinal movements by reason of the "fact that the tooth-like ribs 82 so penetrate and coact with the surface over which the rollers 60 are moved as to impede other than vertical and longitudinal movements thereof, as will be understood when it is taken into account that the rollers, which are held against simultaneous rotation and translation by the ribs 62"', must rotate about their common axis and at the same time slide longitudinally thereof if the device is forcibly moved in any other than right-angle directions. Inasmuch as the present form of the invention does not include an indicator unit for indicating the extent of movements of the device either vertically or longitudinally, the body member 15"' may be convenientlyformed at its rear margin to present a straight edge rather than a curved edge, as is necessitated in the devices of Figs. 1 to 4, 5 and 6, and Fig. 7 due to the presence of the cylindrical shells I8, I8 and I8", respectively, and hence the protractor scale I'I'" in the present instance may be in the form of a flat rather than a curved strip of metal.

Although the form of invention shown in Figs. I3 and I4 is, generally speaking, a modification of the respective devices already described, it is more closely related to the structure of Figs. 8 to 10, and for that reason reference will be made in the following description to Figs. 8 to 10, wherever such`reference is deemed necessary for the sake of, brevityy and clarity, reference characters bearing the exponent a being employed to indicate such elements as correspond to those employedin Figs. 8 to 10.

vReferring.particularly to Figs. 13 and 14, it will.

be noted that the protractor Ila is curved to conform tothe curvature which is presented by the rearwardly extendingv margin of the body member, such extension being provided in order to accommodate a rudder shoe IIEI in the form of a plate, which is secured to the lower rear face of the body member at a point. intermediate its ends. rlhis rudder plate IIO is let into and comes flush With the lower face of the body member, and is provided with a pair of parallel tooth-like ribs I Il disposed on opposite sides of and in a parallel relation to the transverse medial line passing through the axis of the drive shaftV 58a. at right angles thereto. The body member I5a. is.y provided at its forward corners with a pair of similar rudder plates I I2, which are let into and come iiush with the front and end walls of, the body member. These rudder plates are each vprovided with a pair of parallel tooth-like ribs II 4, the respective ribs of one rudder plate being inalignment with corresponding ribs of the other rudder pla-te and al1 of such ribs being parallel to the axis of the drive shaft 58a. The ribs II I and II4 are of such height that when the body member is tilted rearwardly about the axis ofthe shaft 58a, the ribs I I I will engage the surface on which the rollers 60a rest and the ribs I I I will disengage that surface; whereas, when the body member is tilted forwardly about the-axis of the shaft 58a, the ribs I I4 will engage the surface on which the rollers 5ta rest and the ribs III will disengage ribs Il, when in engagement with the surface on which the rollers 60a rest, will effectively function to hold the device on a true or straight 'course when it is moved longitudinally of thel axis of the shaft 58a.. In the present instance, omission, from the rollers 60a, of tooth-like ribs, such as those employed in connection with the several forms of the invention already described, is acco-unted for by the presence of the contact ribs III and II4, although, if desired, the rollers 60d may be provided, as and for the purpose described, with tooth-like ribs without impairing either the operation or the function of the ribs |08 and III.

While the form of invention shown in Figs. 15 to 18 is in fact a modication of the respective devices alreadydescribed, it is more closely related to the structure of Figs. 3 and 4, and for that reason reference will be made in the followingdescription to Figs. 3 and 4, Wherever such reference is deemed necessary for the sake of brevity and clarity, reference characters bearing the exponent b being employed to indicate such elements as correspond to those employed in Figs. 3 and 4.

Referring particularly to Figs. 15 to 18, it will be noted that the front or straight-edge margin of the body member I5b is provided on its rear wall with a plurality of lugs I I 5, each of which is formed with a pocket II6 adapted for the receptionof a compression spring III. This` compression spring surrounds the shank portion of a longitudinally displaceable retaining pin |I8, which is slidable within an opening |20 formed in the front margin of the body member |5b and is adapted to exert a generally downward thrust on the retaining pin by reason of the factV that one end of the spring is seated on the bottom wall of the pocket H6, whereas its other end is maintained in impinging engagement with a collar |2| carried by the shank portion of the pin and slidably disposed within the pocket. It is to be noted that the heads |22 of the several retaining pins 8, are so shaped as to snugly fit within countersunk openings |24, formed in a detachable scale |25, which corresponds to the scales IB, I6', I6 and |6. shown in connection with the previously described forms of the invention, but which differs from those scales in that it is detachably, rather than permanently, connected to the body member, the feature of detachability being taken advantage 01E-to` permit ready substitution of a scale graduated, lfor example, in inches and fractions thereof for one graduated, for example, according to the metric system. In this connection, it will be understood that removal of one scale from the body member |5b and the substitution of another scale is made possible by reason of the fact that the scales are structuraly identical, each being provided at its rear margin with a plurality of slots or notches |26, which serve to accommodate the shank portions of the retaining pins ||8 when the scale is c forcibly displaced in a generally downward direction, incident to removal, or is forcibly moved generally upward incident to substitution. Although the heads |22 of the retaining pins ||8 are held firmly in their respective seated positions by the action of the springs l and thus serve to securely retain the scale in position for use, the springsl are such as to permit relatively easy manual removal and replacement of the scale since they are capable of being easily compressed to permit the heads |22 of the retaining pins to ride up on to the rear margin of the scale in a bridging relation Vto the notches |26 as the scale is being removed or replaced.

Considering particularly the structure shown in Fig. 16, it will be noted that certain minor changes are resorted to without effecting the general principle underlying the form of invention shown in Fig. 4, such changes residing, for example, in the provision of a bearing sleeve |21 for the shaft Sb, the provision of a gear 2lb which is secured to rather than formed integrally with the tubular shaft 25D, and the provision of a thrust washer |28. The form of invention shown in Fig. 16 is especially characterized by reason of the fact that it provides for quick removal of the dial 41h (graduated, for example, in inches and fractions thereof) to permit the substitution of another structurally identical dial, graduated, for example, according to the metric system. In order that the dial 41h may be readily removed or replaced without interference, due to the presence of the pointer 54h, such dial is in the form of an annular ring, supported on the peripheral margin of the dial plate |91) and embracing the annular bead 3% with which that dial plate is provided, it being observed that the graduations of the dial extend to the inner edge of the same, as shown in Fig. l5, and are, therefore, so located with reference to the path of movement of the end of the pointer 54D as to enable readings to be taken with the same degree of accuracy as isl afforded by the dial and pointer arrangement of, for example, Fig. 4. If desired, the dial plate |91) may be equipped with a reference plate |30, provided, for example, with decimal equivalents or other data to which an engineer or draftsman may often have occasion to refer in the performance of'his usual line of duties, the plate being held within the annular bead 39h, as by a press fit therewith. l

The dial 41h is held against displacement on the dial plate |9b by reason of the engagement which is afforded between the peripheral margin of the dial and the removable bezel and crystal unit 5Ib, which is screW-threadedly connected to the depending reinforcing flange 29h of the dial plate |91), the lower skirt-like portion |3| of which flange is peripherallyknurled, as shown at |32 in Fig. 18. n

In order to facilitate removal ofr the dial Alb, upon removal of the bezel and crystal unit 5|b, the dial plate |917 is recessed in the vicinity of its juncture with the flange 29h so as to provide a clearance, as shown at |34, between the peripheral margin of the dial plate and the peripheral margin of its Yassociated dial, which clearance extends throughout the peripheral extent of the dial plate so 'as to permitone to readily grasp and lift the dial from the dial plate in the abeyance of the bezel and crystal unit Sib. Inasmuch as the bezel and crystal unit 5|?) is screwthreadedly attached to the dial plate lsb, it becomes necessary to retain the dial plate |9b against rotation when either attaching that unit to or removing it from the dial plate. In order to enable one to grasp the skirt-like portion |3I, as between ones thumb and forenger, and thus hold the dial plate against rotation when either attaching the unit 5|b to or detaching it from the dial plate, the cylindrical shell 88h is formed with diametrically opposed notches |35, which are disposed in alignment with the peripherally knurled area of the skirt portion |3| of the dial plate and are located, preferably, directly above the junctures of the gusset-like webs 2Gb with the cylindrical shell |817, in which locations ones thumb and forenger are most unlikely to enter them and so engage the knurled periphery of the skirt portion |3| of the dial plate as to interfere with the normal operation of the dial plate but inwhich positions they are readily accessible to enable one by design to effectively hold the dial plate aga-inst rotation, as when removing or replacing the bezel and crystal unit.

From the foregoing it will be observed that in each of the herein described embodiments of the invention, contact means are provided for cooperation with a surface, such as the surface of a sheet of drawing paper, whereby the device is held or guided in true right-angle courses when it is moved vertically and longitudinally, the term vertical movement being herein employed for convenience as indicative. of movement of the device in a path perpendicular to the axis of its -longitudinally disposed shaft and the term longitudinal movement being employed as a convenient expression of translatory movement of the device along a path parallel to said'r shaft. Aside from the foregoing features, which are common to all forms of the invention, it will also be observed that the particular means by which the longitudinally disposed shaft is journalled in the body member is identical in all instances and is such as to permit that shaft and its associated contact rollers to be readily assembled into the several devices.

In so far as the devices of Figs. l to 6vand15 to 18 are concerned, a common feature of primary importance resides in the provision of means which is responsive to movement of thedevice for indicating the extent of such movement, such indicator means being characterized by the fact that one of its indicator elements is manually adjustable with respect to another of its indicator elements to eifect a desired registration of one indicator elementV with the other, such for example as registration of the pointer 54 with a given graduation of the dial il (Figs. l to 4) or registration of either of the pointers 55 and IUI with a given graduation of the dial 4l (Figs. 5 and 6) or registration of the pointer 54" with a given graduation of the dial B1 (Fig. '7), or registration of the pointer Elib with a given graduation of the dial Mb (Figs. 15 and 16). vantage to be derived from the indicator unit, because of the fact that one of its Aindicatorelements may be manually moved into a desired registration with another of its indicator elements, will be readily understood when itis taken `into account that were not such registration Amade possible, the operator, when desiring to move the device a definite distance, say, iwi, would be required to reckon from the last indicator reading which may be, for example, lg", and such reckoning would not only enhance the possibility of error in calculation, but would also detract from the e'iciency of the operator because of the time-consuming factor involved inlthe "calculation and would generally distract his thought or attention from the work at hand, such :as that involved, for example, in the laying out of a complicated machine design. `To obviatethe possibility of error, to eliminate the time-consuming factor, and to insure against distracting lthe operatorsthought or attention from the work at-hand, it is merely necessary to manually adjust the graduated dialeso that one ofits major graduations, such as the-Zero graduation or one'of the inch graduations, will register with the pointer 54 (Figs. 1 to fi) the pointer 54, or the pointer l0! (Figs. 5 and 6), the pointer 54" (Fig. 7), or the .pointer 54h (Fig s..`15 and 16), with the result that the operator is required,"in his reckoning, to consideronly-.a single. fraction, namely 11%", on the. dial scale when relative movement between the pointer -and the scale is eifectedincident to bodily displacement of Vthe device as it is moved from'its -initialposition toward and into `Ya desirediposition of rest;

Aside from vthe'various forms of the invention `herein=shown and described, other changes'may be resortedio without departing from the spirit o f' the"`inventio"or'the scope of the following claims.

What is'claimed is: y

` 1. A geometrical instrument of the type adapted tobe employed as a drafting apparatus, comprisin'g a body member, means for supporting said body Y'member for rolling movement over a Ydrafting surface along two different courses at an angle to each otherV and including a pair of rollers varranged for alternate rotation as the body member isA `alternately moved along said courses, an indicator vfor registering the extent of movement of ysaid body member along said 'courses and including a pair of indicator elements, one of ,whichi's operatively connected to one of said rollers and is adapted to be moved by 'that roller` as the body member is moved along one course, and the other of which is operatively .115 connected to the other of said rollers and k'is The adone-indicatorl element.

H.drafting suriaceandin'cluding: aroller, an indi-` adapted to -befmovedibythat roller as the body memberqis movedfalong the other course.

.2, -A geometricalyinstrument of the type adaptedfto befemployed .as a l.drafting apparatus, comprising-a b odyA member,` means for supportingA said body member forrolling movement over a draftingsurface alongtwo different courses at an angle to eachother and including a pair of rollers arranged foralternate rotation as the body member is alternately -moved along said courses, an indicator for registering the extent of moveymentof .said body memberalong said courses and including a pair of indicator elements supported for relative adjustment whereby a coordinated relation may be .established therebetween, one of said indicator elements'being operatively connectedv to :one of said rollers and adapted to be .moved by that rolleras the body member is moved alongY oneeourse,l and the other of said indicator elementsgbeng .operatively v.connected to the other of said rollers and-adapted to be moved by that roller 'as-vthevbodymember is moved along the other. course. Y Y

V3. A geometrical instrumentV of the type adapted to be employedas a drafting; apparatus, comprising a bodyfmember, means for supporting said lbody member `for rollingl movement overa draft- .ing surface -alongrtwofY different courses at an angleto each other and yincluding av pair of rollers arrangedfor alternate rotation as the-body member is alternately moved along said courses, an indicator Iforfregistering the extent of movement .ofsaid'body member along-said courses and including a pair :of .indicator elements, one of which is operatively `connectedto fone of Vsaid rollers andis adapted to Ebe moved by thatv roller as the body memberis moved along` one course, a manually rotatable support on which the other of saidindicator elements iscarried and by which that indicator-element maybe moved into a co,-

ordinated relation tofsaid` one lindicator element, anda driving.I elementfon which vsaidsupport is carried for fmoveme'nttherewith andwith relation `to whichsaid support may 4ber manually rotated,

zsa'id driving elementbeingv operatively connected s tothe other'Y of said rollers and adapted to be Yrotated by that roller as the body member is movedfalong the other coursewhereby said other indicator :element is rotated with respect to said 4. A- geometrical: instrument of-the'type adapted to be :employed 'as a: drafting apparatus, com- 'prisingga' body member,fmeans for supporting said `bodyzmember for4 rolling Vmovement overA a catorfor registering the'extent ofmovement of fsaid'body member including a pair of indicator elements, one of 'which kis operatively connected to saidroller'whereby it is Vmoved relatively to the other indicator element and in response to :movement oi saidbodymember lover a drafting surface, and ythe-other ofwhich is supported for r manual adjustment whereby va coordinated relation maybe established between it and said one indicator,xand contact means for holding said V roller against slipping on said drafting surface as it ris rotated incident to'rolling movement of the body memberwhereby the body member is prising a body member, means for supporting said body member for rolling movement over a drafting surface and including a roller, an indicator for registering the extent of movement of said body member including a pair of indicator elements, one of which is operatively connected to said roller whereby it is moved relatively to the other indicator element and in'response to movement of said body member over a drafting surface, and the other of which is supported for manual adjustment whereby a coordinated relation may be established between it and said one indicator, and contact means for holding said roller against slipping on said drafting surface as it is rotated incident to rolling movement of the body member whereby the body member is maintained on a true course and for holding said body member on a true course when moved longitudinally of the axis of said roller, said contact means including a series of tooth-like ribs provided on the periphery of said roller anddisposed in a parallel relation to each other and to the axis of Ysaid roller.

6. A geometrical instrument of the type adapted to be employed as a drafting apparatus, comprising a body member, means for supporting said body member for rolling movement over a drafting surface along two different courses at an angle to each other and including alpair of rollers arranged for alternate rotation as the body member is alternately moved along said courses, an

Vindicator for registering the extent of movement and the other of which is operatively connected.

to the other of said rollers and is adapted to be moved by that roller as the body memberis moved along the other course, and contact means adapted to engage and cooperate with said surface for maintaining said body member true to Said courses as it is moved along the same.

7. A geometrical instrument of the type adapted to be employed as a drafting apparatus, comprising a body member, meansffor' supporting said body member for rolling movement over a drafting surface along two different courses at an angle to each other and including a pair of rollers arranged for alternate rotation as the body member is alternately moved along said courses, an indicator for registering 4the extent of movement of said body member along said courses and including a pair of indicator elements, one of which is operatively connected `to one of said rollers and is adapted to be moved by that roller as the body member is moved along one course, and the other of lwhich is operatively connected to the other of said rollers and is adapted to be moved by that roller as the body member is moved along the otherV course, and contact means adapted to engage and cooperate with said surface for maintaining said body member true to said courses as it is moved along the same, said contact means including a. series of tooth-like ribs provided on the periphery of each of said rollers, a rib of one roller being adapted to slide along and penetrate the drawing surface as the other roller is rotated incident to movement of the body member, and vice-versa.

8. A geometrical instrument of the type adapted to be employed as a drafting apparatus, comprising a body member, means for supporting said body member for rolling movement over a drafting surface along two different courses at an angle tov each other and including a pair of rollers arranged for alternate rotation as the body member is alternately moved along said courses, an indicator for registering the extent of movement of said body member along said courses and includingv a pair of indicator elements, one of which is operatively connected to one of said rollers and is adapted to be moved by that roller as `the body member is moved along one course, and the other of which is supported for manual adjustment whereby a coordinated relation may be established between it and said one indicator element and is operatively connected to the other of said rollers and is adapted to be moved by that roller as the body member is moved along the other course, and contact means adapted to engage and cooperate with said surface for maintaining said body member true to said courses as it is moved along the same.

9. A geometrical instrument of the type adapted to be employed as a drafting apparatus, cornprising a body member, means for supporting said body member for rolling movement over a drafting surface along two different courses at an angle to each other and including a pair of rollers arranged for alternate rotation as the body member is alternately moved along said courses, an indicator for registering the extent of movement of said body member along said courses and including a pair of indicator elements, one of which is operatively connected to one of said rollers and is adapted to be moved by that roller as the body member is moved along one course, and the other of which is supported for manual adjustmentr whereby a coordinated relation may be established between it and said one indicator element and is operatively connected to the other 35 of said rollers and is adapted to be moved by that roller as the body member is moved along the other course, and contact means adapted to engage and cooperate with said surface for maintaining said body member true Ato said coursesi as it is moved along the same, said contact means including a series of tooth-like ribs provided on the periphery of each of said rollers, a rib of one roller-being adapted to slide along and penetrate the drawing surface as the other roller is rotated :45

incident to movement of the body member, and

vice-versa.

10. A geometrical instrument of the type adapted to be employed as a drafting apparatus,

comprising a body member, means for supporting said body member for rolling movement over a drafting surface along two different coin-ses at an angle to each other and including a pair of rollers arranged for alternate rotation as the body member is alternately moved along said;

courses, an'indicator for registering the extent of movement oi.' said body member along said courses and including a pair of indicator elements, one of which is operatively connected to one .of said rollers and is adapted to be moved by that roller as the body member is moved along one course, a manually rotatable support on which the other of said indicator elements is carried and by which that indicator element may be moved into a coordinated relation to said one:

eratively connected to the other of said rollers:

and adapted to be rotated by that roller as the body member is moved along the other course whereby said other indicator element is rotated with respect to said one indicator element, and

Contact means adapted to engage and cooperater with said surface for maintaining said body member true to said courses as it is moved along the same.

l1. A geometrical instrument of. the type adapted to be employed as a drafting apparatus, comprising a body member, means for supporting said body member for rolling movement over a drafting surface along two diierent courses at an angle to each other and including a pair of rollers arranged for alternate rotation as the body member is alternately moved along said courses, an indicator for registering the extent of movement of said body member along said courses and including a pair of indicator e1e ments, one of which is operatively connected to one of. said rollers and is adapted to be moved by that roller as the body member is moved along one course, a manually rotatable support on which the other of said indicator elements is carried and by which that indicator element may be moved into a coordinated relation to said one indicator element, a driving element on which said support is carried for movement therewith and withrelation to which said support may be manually rotated, said driving element being operatively connected to the other of said rollers and adapted to be rotated by that roller as the body member is moved along the other course whereby said other indicator element is rotated With respect to said one indicator element, and contact means adapted to engage and cooperate With said surface for maintaining said body member true to said courses as it is moved along the same,A said Contact means including a series of tooth-like ribs provided on the periphery of each of said rollers, a rib of one roller being adapted to'slide along and penetrate the drawing surface as the other roller is rotated incident to movement of. the body member, and vice-versa.

EDMUND R. BARANY. l 

